190 resultados para JATROPHA CURCAS
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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3-Acetylaleuritolic acid, sitosterol and a novel lathyrane diterpene, jatrowedione, have been isolated from the roots of Jatropha weddelliana. The elucidation of the structure of the latter was accomplished by detailed NMR investigation, and the relative configuration was established by difference NOE experiments. (C) 1998 Published by Elsevier B.V. Ltd. All rights reserved.
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Introduction Jatropha gossypifolia has been used quite extensively by traditional medicine for the treatment of several diseases in South America and Africa. This medicinal plant has therapeutic potential as a phytomedicine and therefore the establishment of innovative analytical methods to characterise their active components is crucial to the future development of a quality product. Objective To enhance the chromatographic resolution of HPLC-UV-diode-array detector (DAD) experiments applying chemometric tools. Methods Crude leave extracts from J. gossypifolia were analysed by HPLC-DAD. A chromatographic band deconvolution method was designed and applied using interval multivariate curve resolution by alternating least squares (MCR-ALS). Results The MCR-ALS method allowed the deconvolution from up to 117% more bands, compared with the original HPLC-DAD experiments, even in regions where the UV spectra showed high similarity. The method assisted in the dereplication of three C-glycosylflavones isomers: vitexin/isovitexin, orientin/homorientin and schaftoside/isoschaftoside. Conclusion The MCR-ALS method is shown to be a powerful tool to solve problems of chromatographic band overlapping from complex mixtures such as natural crude samples. Copyright © 2013 John Wiley & Sons, Ltd. Extracts from J. gossypifolia were analyzed by HPLC-DAD and, dereplicated applying MCR-ALS. The method assisted in the detection of three C-glycosylflavones isomers: vitexin/isovitexin, orientin/homorientin and schaftoside/isoschaftoside. The application of MCR-ALS allowed solving problems of chromatographic band overlapping from complex mixtures such as natural crude samples. Copyright © 2013 John Wiley & Sons, Ltd.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Jatropha gossypiifolia L. (Euphorbiaceae), conhecida no Pará como pião-roxo, é utilizada no tratamento de hemorróidas, queimaduras, dores estomacais, entre outras doenças. Diante da importância do vegetal na região torna-se necessária a sua investigação visando contribuir para o seu aproveitamento no desenvolvimento de fitoterápicos. Para tanto, buscou-se determinar o perfil cromatográfico do extrato etanólico bruto (EEB), por cromatografia de camada delgada (CCD) e por cromatografia líquida de alta eficiência (CLAE), o teor de flavonóides totais e dos flavonóides isolados no extrato. Foram realizados também ensaios de atividade antimicrobiana com o EEB e as frações obtidas a partir dele (frações hexânica, clorofórmica, acetato de etila e residual). A atividade antioxidante do extrato e suas frações também foi caracterizada. O material vegetal foi coletado no horto de plantas medicinais da EMBRAPA – Amazônia oriental e com ele preparou-se, por percolação, o EEB; utilizando um evaporador rotativo a baixa pressão, obteve-se o extrato seco que, posteriormente, foi fracionado por partição líquido-líquido sucessivamente com hexano, clorofórmio e acetato de etila. As frações obtidas foram também concentradas a baixa pressão. A fração acetato de etila foi novamente fracionada fornecendo uma fração acetona (FAct-II), uma nova acetato de etila (FA-II), metanólica (FM-II) e resíduo sólido (RS-II). FAct-II foi submetida a cromatografia líquida a média pressão obtendo-se as subfrações Fr SAc1-II e Fr SAc3-II denominadas de Jg1 e Jg2, respectivamente. A prospecção química no extrato e nas frações dos metabólitos foi realizada em triplicata, sendo evidenciada a presença dos seguintes polifenóis: taninos catéquicos e flavonóides. A análise por CCD foi realizada utilizando-se o eluente acetato de etila/ácido fórmico/ácido acético glacial/água (100:11:11:26), sobre gel de sílica de fase normal, sendo observadas zonas com fator de retenção 0,65, 0,72 e 0,77, reativas à solução de FeCl3. O cromatograma por CLAE do EEB apresentou três picos significativos (valores médios de tr: 13,24 min, 15,02 min e 16,00 min) cujos espectros são característicos de flavonóides. No calculo do teor de flavonóides, aplicando-se a média das leituras de absorvância (A: 0,874), chegou-se ao teor de 2,04%. A concentração encontrada para cada substância isolada foi de 340 μg para Jg1 e 406 μg para Jg2 por mililitro da solução de extrato. Quanto às atividades biológicas testadas, FA-I e FR-I inibiram o crescimento de S. aureus e C. albicans como também apresentaram maior potencial antioxidante. Os resultados fornecem parâmetros acerca de polifenóis adequados para o controle de qualidade como marcadores químicos, e teor de destes possíveis marcadores.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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There is still discussion regarding whether liquid biofuels can contribute to rural energy security in the global South. We argue that transitioning to a village energy supply based on jatropha hedges around smallholder plots is possible, but requires collective effort for the acquisition and maintenance of processing equipment and for the running of village generators. The use of jatropha oil for lighting in rural households is affordable and technically possible, but not ideal if more efficient electric solutions exist. Cooking with jatropha oil or press cake is also possible, but quantities produced in hedges can only substitute a small part of the firewood used by rural households.
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Many observers view Jatropha as a miracle plant that grows in harsh environments, halts land degradation and provides seeds for fuel production. This makes it particularly attractive for use in Ethiopia, where poverty levels are high and the degradation of agricultural land is widespread. In this article, we investigate the potentials and limitations of a government-initiated Jatropha project for smallholders in northeastern Ethiopia from a green economy perspective. Data are based on a 2009 household survey and interviews with key informants, as well as on a 2012 follow-up round of interviews with key informants. We conclude that the project has not contributed to a greener economy so far, but has the potential to do so in the future. To maximize Jatropha’s potential, interventions must focus mainly on smallholders and pay more attention to the entire biofuel value chain.
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Renewable non-edible plant oils such as jatropha and karanj have potential to substitute fossil diesel fuels in CI engines. A multi-cylinder water cooled IDI type CI engine has been tested with jatropha and karanj oils and comparisons made against fossil diesel. The physical and chemical properties of the three fuels were measured to investigate the suitability of jatropha and karanj oils as fuels for CI engines. The engine cooling water circuit and fuel supply systems were modified such that hot jacket water preheated the neat plant oil prior to injection. Between jatropha and karanj there was little difference in the performance, emission and combustion results. Compared to fossil diesel, the brake specific fuel consumption on volume basis was around 3% higher for the plant oils and the brake thermal efficiency was almost similar. Jatropha and karanj operation resulted in higher CO 2 and NO x emissions by 7% and 8% respectively, as compared to diesel. The cylinder gas pressure diagram showed stable engine operation with both plant oils. At full load, the plant oils gave around 3% higher peak cylinder pressure than fossil diesel. With the plant oils, cumulative heat release was smaller at low load and almost similar at full load, compared to diesel. At full load, the plant oils exhibited 5% shorter combustion duration. The study concludes that the IDI type CI engine can be efficiently operated with neat jatropha (or karanj) oil preheated by jacket water, after small modifications of the engine cooling and fuel supply circuits. © 2012 Elsevier Ltd.
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Renewable alternatives such as biofuels and optimisation of the engine operating parameters can enhance engine performance and reduce emissions. The temperature of the engine coolant is known to have significant influence on engine performance and emissions. Whereas much existing literature describes the effects of coolant temperature in engines using fossil derived fuels, very few studies have investigated these effects when biofuel is used as an alternative fuel. Jatropha oil is a non-edible biofuel which can substitute fossil diesel for compression ignition (CI) engine use. However, due to the high viscosity of Jatropha oil, technique such as transesterification, preheating the oil, mixing with other fuel is recommended for improved combustion and reduced emissions. In this study, Jatropha oil was blended separately with ethanol and butanol, at ratios of 80:20 and 70:30. The fuel properties of all four blends were measured and compared with diesel and jatropha oil. It was found that the 80% jatropha oil + 20% butanol blend was the most suitable alternative, as its properties were closest to that of diesel. A 2 cylinder Yanmar engine was used; the cooling water temperature was varied between 50°C and 95°C. In general, it was found that when the temperature of the cooling water was increased, the combustion process enhanced for both diesel and Jatropha-Butanol blend. The CO2 emissions for both diesel and biofuel blend were observed to increase with temperature. As a result CO, O2 and lambda values were observed to decrease when cooling water temperature increased. When the engine was operated using diesel, NOX emissions correlated in an opposite manner to smoke opacity; however, when the biofuel blend was used, NOX emissions and smoke opacity correlated in an identical manner. The brake thermal efficiencies were found to increase slightly as the temperature was increased. In contrast, for all fuels, the volumetric efficiency was observed to decrease as the coolant temperature was increased. Brake specific fuel consumption was observed to decrease as the temperature was increased and was higher on average when the biofuel was used, in comparison to diesel. The study concludes that the effects of engine coolant temperature on engine performance and emission characteristics differ between biofuel blend and fossil diesel operation. The coolant temperature needs to be optimised depending on the type of biofuel for optimum engine performance and reduced emissions.
